Alessandra Cesano

Two unique human leukemic T-cell lines endowed with a stable cytotoxic function and a different spectrum of target reactivity analysis and modulation of their lytic mechanisms

SummaryWe have reported the establishment of two interleukin (IL)-2-dependent human leukemic cell lines (TALL-103/2 [CD3+TCRγδ+] and TALL-104 [CD3+TCRαβ+]) which display major histocompatibility complex nonrestricted tumoricidal activity. Whereas TALL-103/2 cells lyse only natural killer cell-susceptible targets, TALL-104 cells display a broad range of tumor target reactivity. In reverse antibody-dependent cell-mediated cytotoxicity (ADCC), lysis by both cell lines is triggered by monoclonal antibodies (mAb) recognizing CD3 and, to a lesser extent, CD2, but not CD8 or CD56 antigens. In conventional cytotoxic assays, the lytic activity of both cell lines is strictly Ca2+-dependent. In reverse ADCC, lysis by TALL-103/2 cells is highly dependent on the presence of Ca2+, whereas TALL-104 cells seem to only partially require extracellular Ca2+. The cytoplasm of both cell lines contains azurophilic granules typical of cytotoxic cells. Northern blot analysis demonstrates mRNA expression of pore-forming protein (PFP; perforin) and serine esterases (SE). The magnitude of expression of these transcripts and of lytic activity depends on the doses of IL-2. Upon deprivation of IL-2, TALL-103/2 cells completely lose cytotoxic granules and function within 16 h, whereas TALL-104 cells progressively lose expression of PFP and SE mRNA, as well as killer activity, within 4 wk. Both anti-CD3 mAb and lysable target cells induce efficient BLT-esterase secretion from TALL-103/2 and TALL-104 cells analogous to findings with conventional cytotoxic T lymphocytes. The stable expression of tumoricidal activity over 2 yr in culture renders these cell lines unique and very useful for studies on the regulation of cell-mediated lysis in vitro and in animal models.

Prolactin and the neuroimmune network

Synopsis Available literature shows that prolactin (PRL) promotes the development of cells of the immune system and thereafter controls their functioning. The aim of this review is to gather recent findings which show a direct interaction of the hormone with the cells of the immune system in vitro. It concludes that the hormone acts as a stimulatory factor in the growth of NK cells. Furthermore, PRL apparently activates these cells through an autocrine mechanism similar to that used by IL-2.

Inducible expression of granulocyte-macrophage colony-stimulating factor, tumor necrosis factor-α, and interferon-γ in two human cytotoxic leukemic T-cell lines

SummaryWe investigated the ability of the TALL-103/2 and TALL-104 leukemic cell lines to produce lymphokines in response to activation signals, such as tumor cells and anti-CD3 (OKT3) or -CD2 (B67.1) monoclonal antibodies (mAb) or both. Both cell lines were found to produce high levels of interferon (IFN)-γ, tumor necrosis factor (TNF)-α, and granulocyte-macrophage colony-stimulating factor (GM-CSF). The latter lymphokine is induced by lysable tumor cells and by immobilized OKT3 and B67.1 mAb only in the presence of interleukin (IL-2). IFN-γ and TNF-α are induced upon CD3 but not CD2 stimulation, both in the presence and absence of IL-2. Interestingly, the B67.1 mAb amplifies the OKT3-induced responses by 2- to 10-fold, bringing the IFN-γ and TNF-α levels of production up to 200 U/ml. Thus, simultaneous triggering of the CD2 and CD3 signaling pathways results in a very efficient lymphokine release. Of all the tumor cell lines tested as inducers, only K562 cells are able to stimulate the production of IFN-γ and TNF-α in TALL-103/2 and TALL-104 cells, especially upon culture in IL-2. Lymphokine mRNA expression after stimulation with mAb or K562 cells peaks at 2 h in both cell lines. No messages are detectable in TALL-103/2 cells at 8 h, whereas in TALL-104 cells, IFN-γ and GM-CSF transcripts are still present at 8 and 20 h, respectively. The inducible and highly regulatable expression of lymphokine release by these cell lines provides a unique model for studying mechanisms of lymphokine induction by different biological agents.

Toxicological and immunological evaluation of the MHC-non-restricted cytotoxic T cell line TALL-104

Abstract The human MHC-non-restricted cytotoxic T cell line TALL-104 has been shown to display potent antitumor effects in several animal models with spontaneous and induced malignancies. In view of its potential future use in cancer therapy, we investigated the tolerability and target-organ toxicity of these cells in various animal species. The acute toxicity of TALL-104 cell administrations was evaluated in: (a) healthy immunocompetent mice and immunodeficient (SCID) mice bearing human tumors using multiple (up to 15) intraperitoneal (i.p.) injections, and (b) healthy dogs, tumor-bearing dogs, and healthy monkeys using multiple (up to 17) intravenous (i.v.) injections. TALL-104 cells were γ-irradiated (40 Gy) prior to administration to mice and dogs, but administered without irradiation in monkeys. Cell doses ranged from 5×107/kg to 1010/kg for each injection. All regimens were well tolerated, the main clinical signs observed being transient gastrointestinal effects. Moderate and transient increases in liver transaminase levels were observed in all animal species. Discrete and transient leukocytosis with neutrophilia was also noted in dogs and monkeys after i.v injections of TALL-104 cells. Histological analysis revealed foci of hepatic necrosis with lympho-/mono-/granulocytic infiltration in immunocompetent mice injected i.p. with 5×109 – 1010 cells/kg. In the same mice, the colon showed an increased number of muciparous cells and alterations in the villi structure: these alterations were completely reversed by 72 h after the last injection, while liver alterations reversed more slowly (1 week). No delayed or chronic toxicity was observed in any of the animals even when non-irradiated TALL-104 cells were administered: both immunocompetent mice and healthy dogs were found to be grossly and histopathologically normal when sacrificed (1 year and 1 month after the last TALL-104 injection respectively). TALL-104 cells did not persist in these hosts. In addition, monkeys showed no molecular signs of TALL-104-cell-induced leukemia in their blood 1 year after the last cell injection. Despite immunosuppression, most of the tumor-bearing dogs as well as the healthy dogs and monkeys developed both humoral and cellular immune responses against TALL-104 cells. The data derived from these preclinical studies suggest that administration of high doses of irradiated TALL-104 cells is well tolerated and would be unlikely to induce severe toxicity if applied in clinical trials to the treatment of patients with refractory cancer.